Your shopping cart is currently empty.
Contact Mode
Contact Mode is a standard AFM mode that provides the base for a host of other AFM modes. Contact mode uses a microfabricated AFM tip mounted on a cantilever. The AFM tip and sample are in constant contact during scanning. The detector signal measures cantilever deflection in Z. The output signal adjusts the Z position of the scanner to maintain the deflection setpoint when in feedback mode.
Frequency
Nom: 293KHz
Spring Const.
Nom: 10.4N/m
Geometry
A Rectangular Material
1 Ωcm Silicon
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
8nmMaterial
0.01 - 0.025 Ωcm Antimony (n) doped Si
Frequency
Nom: 20KHz
Spring Const.
Nom: 0.9N/m
Geometry
Rectangular
Tip Radius
8nmMaterial
0.01 - 0.025 Ωcm Antimony (n) doped Si
Frequency
Nom: 180KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
10 ± 5nmMaterial
Single Crystal DiamondCoating
Highly conductive single crystal diamondB: Reflective Au
Frequency
Nom: 293KHz
Spring Const.
Nom: 10.4N/m
Geometry
A Rectangular Material
1 Ωcm Silicon
Frequency
Nom: 65KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
<5nm
Frequency
Nom: 20KHz
Spring Const.
Nom: 0.9N/m
Geometry
Rectangular
Tip Radius
8nmMaterial
0.01 - 0.025 Ωcm Antimony (n) doped SiCoating
B: Reflective Aluminum
Frequency
Nom: 65KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
10 ± 5nm
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
8nmMaterial
0.01 - 0.025 Ωcm Antimony (n) doped SiCoating
B: Reflective Aluminum
Frequency
Nom: 180KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
<5nmMaterial
Single Crystal DiamondCoating
Highly conductive single crystal diamondB: Reflective Au